References

Al-Attar, T.S., 2013. A mathematical model for predicting autoclave expansion for Portland cement. Intl. J. Civil Eng. Technol., 4: 110-116.
Direct Link  |  

Anonymous, 2005. Standard test method for autoclave expansion of hydraulic cement. ASTM C151-05, ASTM International, West Conshohocken, Pennsylvania.

Borhan, T.M. and R.S. Al-Rawi, 2016. Soundness of cement paste due to combined effect of MGO and SOM₃ contents in cement. Al Qadisiya J. Eng. Sci., 9: 492-502.
Direct Link  |  

Chatterji, S., 1995. Mechanism of expansion of concrete due to the presence of dead-burnt CaO and MgO. Cem. Concr. Res., 25: 51-56.
Direct Link  |  

Czermin, W., 1980. Cement Chemistry and Physics for Civil Engineers. Bauveflag, Wiesbaden, pp: 112-157.

Gonnerman, H.F., W. Lerch and T.M. Whiteside, 1953. Investigations of the hydration expansion characteristics of Portland cement. Portland Cement Association, Skokie, Illinois, USA. https://trid.trb.org/view/101988

Huntzinger, D.N. and T.D. Eatmon, 2009. A life-cycle assessment of Portland cement manufacturing: Comparing the traditional process with alternative technologies. J. Cleaner Prod., 17: 668-675.
Direct Link  |  

Latif, M.A., 2001. Mathematical model for optimum gypsum content in concrete. Ph.D Thesis, University of Baghdad, Baghdad, Iraq.

Lea, F.M., 1970. The Chemistry of Cement and Concrete. 3rd Edn., Edward Arnold Publishers Limited, Glasgow, United Kingdom.

Lea, F.M., 2004. The Chemistry of Cement and Concrete. Elsevier, New York, USA., Pages: 1057.

Neville, A.M., 1995. Properties of Concrete. 14th Edn., Longman Group Limited, London, pp: 324.

Rehsi, S.S. and A.J. Majumdar, 1967. The use of small specimens for measuring autoclave expansion of cements. Mag. Concr. Res., 19: 243-246.
Direct Link  |